CVaR Norm and Applications in Optimization

Konstantin Pavlikov; Stan Uryasev

doi:10.1007/s11590-013-0713-7

CVaR Norm and Applications in Optimization

Konstantin Pavlikov, Stan Uryasev

University of Florida

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

This paper introduces the family of CVaR norms in R ⁿ, based on the CVaR concept. The CVaR norm is defined in two variations: scaled and non-scaled. The well-known L ₁ and _∞ norms are limiting cases of the new family of norms. The D-norm, used in robust optimization, is equivalent to the non-scaled CVaR norm. We present two relatively simple definitions of the CVaR norm: (i) as the average or the sum of some percentage of largest absolute values of components of vector; (ii) as an optimal solution of a CVaR minimization problem suggested by Rockafellar and Uryasev. CVaR norms are piece-wise linear functions on R ⁿ and can be used in various applications where the Euclidean norm is typically used. To illustrate, in the computational experiments we consider the problem of projecting a point onto a polyhedral set. The CVaR norm allows formulating this problem as a convex or linear program for any level of conservativeness.

Original language	English
Journal	Optimization Letters
Volume	8
Issue number	7
Pages (from-to)	1999-2020
ISSN	1862-4472
DOIs	https://doi.org/10.1007/s11590-013-0713-7
Publication status	Published - Oct 2014
Externally published	Yes

Keywords

CVaR norm
L norm
Projection

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title = "CVaR Norm and Applications in Optimization",

abstract = "This paper introduces the family of CVaR norms in R n, based on the CVaR concept. The CVaR norm is defined in two variations: scaled and non-scaled. The well-known L 1 and ∞ norms are limiting cases of the new family of norms. The D-norm, used in robust optimization, is equivalent to the non-scaled CVaR norm. We present two relatively simple definitions of the CVaR norm: (i) as the average or the sum of some percentage of largest absolute values of components of vector; (ii) as an optimal solution of a CVaR minimization problem suggested by Rockafellar and Uryasev. CVaR norms are piece-wise linear functions on R n and can be used in various applications where the Euclidean norm is typically used. To illustrate, in the computational experiments we consider the problem of projecting a point onto a polyhedral set. The CVaR norm allows formulating this problem as a convex or linear program for any level of conservativeness.",

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AU - Uryasev, Stan

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N2 - This paper introduces the family of CVaR norms in R n, based on the CVaR concept. The CVaR norm is defined in two variations: scaled and non-scaled. The well-known L 1 and ∞ norms are limiting cases of the new family of norms. The D-norm, used in robust optimization, is equivalent to the non-scaled CVaR norm. We present two relatively simple definitions of the CVaR norm: (i) as the average or the sum of some percentage of largest absolute values of components of vector; (ii) as an optimal solution of a CVaR minimization problem suggested by Rockafellar and Uryasev. CVaR norms are piece-wise linear functions on R n and can be used in various applications where the Euclidean norm is typically used. To illustrate, in the computational experiments we consider the problem of projecting a point onto a polyhedral set. The CVaR norm allows formulating this problem as a convex or linear program for any level of conservativeness.

AB - This paper introduces the family of CVaR norms in R n, based on the CVaR concept. The CVaR norm is defined in two variations: scaled and non-scaled. The well-known L 1 and ∞ norms are limiting cases of the new family of norms. The D-norm, used in robust optimization, is equivalent to the non-scaled CVaR norm. We present two relatively simple definitions of the CVaR norm: (i) as the average or the sum of some percentage of largest absolute values of components of vector; (ii) as an optimal solution of a CVaR minimization problem suggested by Rockafellar and Uryasev. CVaR norms are piece-wise linear functions on R n and can be used in various applications where the Euclidean norm is typically used. To illustrate, in the computational experiments we consider the problem of projecting a point onto a polyhedral set. The CVaR norm allows formulating this problem as a convex or linear program for any level of conservativeness.

KW - CVaR norm

KW - L norm

KW - Projection

U2 - 10.1007/s11590-013-0713-7

DO - 10.1007/s11590-013-0713-7

M3 - Journal article

SN - 1862-4472

VL - 8

SP - 1999

EP - 2020

JO - Optimization Letters

JF - Optimization Letters

IS - 7

ER -

CVaR Norm and Applications in Optimization

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